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A guide to hazard identification methods.
A Guide to Hazard Identification Methods, Second Edition provides a description and examples of the most common techniques leading to a safer and more reliable chemical process industry. This new edition revises previous sections with up-to-date, linked sources. Furthermore, new elements include a m...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
San Diego :
Elsevier,
2020.
|
| Edición: | 2nd ed. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro
- Title page
- Table of Contents
- Copyright
- Foreword
- Acknowledgements
- Disclaimer
- Acronyms and abbreviations
- SI units
- 1: Regulatory framework
- Synopsis
- 1.1 Overview
- 1.2 Background
- 1.3 Features of Seveso III Directive
- Appendix
- 2: A guide to Hazard Identification Methods
- Synopsis
- 2.1 Hazard Identification
- 3: Hazard Studies
- Synopsis
- 3.1 Introduction
- 3.2 Definition
- 3.3 Description
- 3.4 Resource requirements
- 3.5 Timing
- 3.6 Advantages, disadvantages and uncertainties
- 3.7 Applications
- 4: Hazard and operability study (HAZOP)
- Synopsis
- 4.1 Definition
- 4.2 Description
- 4.3 Resource requirements
- 4.4 Timing
- 4.5 Advantages, disadvantages and uncertainties
- 4.6 Applications
- Other readings
- 5: HAZID
- Synopsis
- 5.1 Precautionary comment
- 5.2 Definition
- 5.3 Description
- 5.4 Resources
- 5.5 Manpower
- 5.6 Timing
- 5.7 Advantages, disadvantages and uncertainties
- 5.8 Methodology
- Appendix
- 6: Task analysis
- Synopsis
- 6.1 Definition
- 6.2 Description
- 6.3 Resources required
- 6.4 Timing
- 6.5 Advantages, disadvantages and uncertainties
- 6.6 Application
- 7: Layer of Protection Analysis (LOPA)
- Synopsis
- 7.1 Definition
- 7.2 Description
- 7.3 Resource requirements
- 7.4 Timing
- 7.5 Advantages, disadvantages and uncertainties
- 7.6 Example
- Definitions and abbreviations
- 8: Relative ranking
- Synopsis
- 8.1 Definition
- 8.2 Description
- 8.3 Resource requirements
- 8.4 Timing
- 8.5 Advantages, disadvantages and uncertainties
- 8.6 Applications for relative ranking methods
- 8.7 Example of the Dow FEI [1]
- 8.8 Conclusion
- 9: The risk analysis screening tool (RAST)
- Synopsis
- 9.1 Definition
- 9.2 Description
- 9.3 Resources
- 9.4 Timing
- 9.5 Advantages, disadvantages and uncertainties
- 9.6 Example of a RAST evaluation
- 10: Checklists
- Synopsis
- 10.1 Definition
- 10.2 Description
- 10.3 Resource requirements
- 10.4 Advantages, disadvantages and uncertainties
- 10.5 Applications
- 10.6 Examples
- 11: What if?
- Synopsis
- 11.1 Definition
- 11.2 Description
- 11.3 Resource requirements
- 11.4 Timing
- 11.5 Advantages, disadvantages and uncertainties
- 11.6 Applications
- 12: Failure modes and effects analysis (FMEA) and failure modes, effects and criticality analysis (FMECA)
- Synopsis
- 12.1 Definition
- 12.2 Description
- 12.3 Resource requirements
- 12.4 Timing
- 12.5 Advantages, disadvantages and uncertainties
- 12.6 Applications
- 13: Fault tree analysis
- Synopsis
- 13.1 Definition
- 13.2 Description
- 13.3 Resource requirements
- 13.4 Timing
- 13.5 Advantages, disadvantages and uncertainties
- 13.6 Failure rate or reliability data and common mode (cause) failure
- 13.7 Example
- 14: Event tree analysis
- Synopsis
- 14.1 Definition
- 14.2 Description.